JP2546318Y2 - Optical disk recording device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial application field) The present invention relates to an optical disk recording device.

(Prior Art) An optical disc recording apparatus forms pits on an optical disc by irradiating the optical disc with an optical modulation output accompanying a pulse width modulation signal.

However, due to the influence of the thermal inertia of the optical disk and the effect of the beam waist diameter, pits not at all equal to the light modulation output are formed in the recording of the optical disk.

A light modulation output for forming pits in this order optical disc, formed by a pulse width modulated signal of a constant length Delta] t ₁ for a short pulse width than the pulse width of the pit pulse width modulated signal to correspond to the length to be formed, the optical disk Had been recorded.

(Problems to be Solved by the Invention) However, when using the conventional optical disk recording apparatus, the fixed length Δt ₁ is a fixed length, and although there is an appropriate value of Δt ₁ depending on the optical power, the sensitivity of the optical disk, and the like. Δt ₁ to an appropriate value due to variations in optical power, optical disk sensitivity, etc.
Cannot be determined, and a pit corresponding to the recording signal cannot be actually formed.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide an optical disk recording apparatus capable of forming an appropriate pit length even if the sensitivity of the optical disk varies or the optical power fluctuates.

(Means for Solving the Problems) An optical disk recording apparatus according to the present invention is an optical disk recording apparatus that forms pits on an optical disk by optical modulation output accompanying a pulse width modulation signal. First converting means for converting the signal into a signal of a corresponding level, and second converting means for receiving a pulse width modulation signal based on a pit length to be formed on the optical disc and converting the signal into a signal of a level corresponding to the pulse width of the pulse width modulation signal Detecting means for detecting a difference between a level of an output signal output from the first converting means and a level of an output signal output from the second converting means; and detecting means for detecting a pulse width based on a pit length to be formed on the optical disc. Pulse width control means for modulating based on the difference detected by the pulse width control means, and a signal output from the pulse width control means for modulating an optical modulation output. Light modulating means for controlling the loose width.

(Operation) Since the optical disk recording apparatus of the present invention is configured as described above, the signal is converted into a signal of a level corresponding to the formed pit length by the first converting means which receives the reflected light from the optical disk. Therefore, it is equivalent to the fact that the formed pit length is substantially detected based on the level of the converted signal. The pulse width modulation signal based on the pit length formed on the optical disk by the second conversion means is converted into a signal having a level corresponding to the pulse width, and the signal level output from the first conversion means and the signal output from the second conversion means are output. The difference from the level of the detected signal is detected by the detecting means.

The pulse width based on the pit length formed on the optical disk is modulated by the pulse width control unit based on the difference detected by the detection unit, and the modulation signal output from the pulse width control unit determines the pit length to be formed. A modulated signal having a pulse width changed corresponding to the difference between the pit length to be formed and the pit length to be formed is controlled. The pulse width of the light modulation output output from the light modulation means is controlled by the signal output from the pulse width control means, and the pulse width corresponds to the difference between the formed pit length and the pit length to be formed. As a result, the pit length is recorded even if the sensitivity of the optical disc varies or the optical power fluctuates.

(Examples) Hereinafter, the present invention will be described with reference to examples.

FIG. 1 is a block diagram showing the configuration of one embodiment of the present invention.

The electric signal obtained by converting the reflected light from the optical disk is supplied to the conversion circuit 1 and a pulse width modulation signal corresponding to the formed pit length is output from the reflected light. The output pulse width modulation signal from the conversion circuit 1 is supplied to a pulse width voltage conversion circuit 2 and converted into a signal having a level corresponding to the pulse width of the input pulse width modulation signal. As shown in FIG. 2, the conversion circuit 1 compares comparators 11 and 12 for comparing the reflected light converted into an electric signal with reference voltages V ₁ and V ₂ , an inverter 13 for inverting the output of the comparator 11, and an inverter 13. It comprises an OR gate 14 to which the output and the output of the comparator 12 are input, and a D flip-flop 15 to which the output of the OR gate 14 is input.

The electrical signal obtained by converting the modulated optical modulation output for forming and recording pits on the optical disk is supplied to a pulse width voltage conversion circuit 3 and converted into a signal having a level corresponding to the pulse width of the input modulation signal.

The output of the pulse width conversion circuit 2 and the output of the pulse width conversion circuit 3 are supplied to a differential amplifier circuit 4, and the pulse width conversion circuit 2
And the output of the pulse width conversion circuit 3 is amplified, and the output of the differential amplifier circuit 4 is supplied to the pulse width control circuit 5 to control the pulse width of the modulation signal. The output of the pulse width control circuit 5 is supplied to an optical modulator 6, and the output of the optical modulator 6 is supplied to a laser diode 7, which modulates and outputs the laser light. Is irradiated on the optical disc to form pits.

In this embodiment configured as described above, the electric signal obtained by converting the reflected light from the optical disk is, for example, as shown in FIG. 3 (a), and is supplied to the conversion circuit 1. Electrical signal obtained by converting the reflected light is the reference voltage V ₁ and V ₂ with the results of the comparison to each other in a comparator 11 and 12, the signal of FIG. 3 (b) from the comparator 11 is output from the third comparator 12 The signal shown in FIG. The output from the comparator 11 is inverted by the inverter 13 and becomes a signal shown in FIG. Therefore, the output of the OR gate 14 is as shown in FIG. The Q output signal of the D flip-flop 15, to which the output of the OR gate 14 has been input as a clock signal, is as shown in FIG. 3 (f). The period during which the Q output signal of the D flip-flop 15 is at a high potential corresponds to the pit length formed on the optical disk.

The output signal from the conversion circuit 1 has the waveform shown in FIG.
Is converted into a voltage of a level corresponding to the high potential period of the output from the. Therefore, the level of the output signal of the pulse width voltage conversion circuit 2 corresponds to the pit length formed on the optical disk.

On the other hand, the electrical signal obtained by converting the modulated optical modulation output for forming and recording pits on the optical disk is converted by the pulse width voltage conversion circuit 3 into a signal having a level corresponding to the pulse width of the input modulation signal. Therefore, it can be said that the level of the output signal of the pulse width voltage conversion circuit 3 corresponds to the pit length formed on the optical disc.

The difference between the output of the pulse width voltage conversion circuit 2 and the output of the pulse width voltage conversion circuit 3 is taken by a differential amplifier circuit 4 and amplified. Therefore, the output Ve of the differential amplifier circuit 4 corresponds to the difference between the pit length to be formed and the formed pit length.

The pulse width control circuit 5 has the pulse width shown in FIG.
As shown in FIG. 4 (b), the modulation signal Si of Ti is supplied, and the input signal Ve is input and the input signal Ve is shorter by a pulse width Δt having a linear correspondence relationship shown in FIG. A pulse width control circuit 5 outputs a modulation signal So having a pulse width (Ti−Δt).

The output signal So from the pulse width control circuit 5 is supplied to the optical modulator 6, and the optical output modulated by the laser diode 7 by the output of the optical modulator 6, that is, the optical modulation output is applied to the optical disc, and the optical disc is pitted. Is formed.
The output obtained by converting the reflected light from the formed pits into an electric signal is as shown in FIG. 4C, and the output from the conversion circuit 1 is as shown in FIG. 4D. Figures (c) and (d) show FIGS. 3 (a) and (f).
Is rewritten. The output pulse width from the conversion circuit 1 is indicated by To.

Therefore, the pulse width of the optical modulation output is controlled so that the output Ve of the differential amplifier circuit 4 is zero, that is, the pulse width Ti is equal to To, and the pit length to be formed is formed. The pit length is controlled equally.

(Effects of the Invention) As described above, according to the present invention, the first conversion means that receives the reflected light from the optical disk converts the signal into a signal having a level corresponding to the formed pit length, and substantially reduces the formed pit length. The pulse width modulation signal is converted by the second converter into a signal having a level corresponding to the pulse width, and the difference between the output signal level from the first converter and the output signal level from the second converter is detected. Means, and the pulse width of the light modulation output is controlled according to the output of the detection means, so that the difference between the pit length in which the pulse width of the light modulation output is formed and the pit length to be formed becomes zero. Thus, even if the sensitivity of the optical disc varies and the optical power fluctuates, recording with an appropriate pit length is performed, and a pit having the pit length to be formed is formed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of a conversion circuit in one embodiment of the present invention. FIG. 3 is a timing chart for explaining the operation of the conversion circuit in one embodiment of the present invention. FIG. 4 is a timing chart for explaining the operation of the embodiment of the present invention. FIG. 5 is a characteristic diagram for explaining the operation of the pulse width control circuit in one embodiment of the present invention. DESCRIPTION OF SYMBOLS 1 ... Conversion circuit, 2 and 3 ... Pulse width voltage conversion circuit, 4
... a differential amplifier circuit, 5 ... a pulse width control circuit, 6 ... an optical modulator, 7 ... a laser diode, 11 and 12 ... a comparator.

Claims (1)

(57) [Scope of request for utility model registration] 1. An optical disk recording apparatus for forming pits on an optical disk by an optical modulation output accompanying a pulse width modulation signal, a first conversion means for receiving reflected light from the optical disk and converting the reflected light into a signal having a level corresponding to the formed pit length. A second conversion means for receiving a pulse width modulation signal based on a pit length to be formed on an optical disk and converting the signal into a signal having a level corresponding to the pulse width of the pulse width modulation signal; and an output signal output from the first conversion means And a pulse width for modulating a pulse width based on a pit length to be formed on the optical disk based on the difference detected by the detection means. Control means; and light modulation means for controlling a pulse width of an optical modulation output by a signal output from the pulse width control means. Optical disk recording apparatus for.